CREATIVE ENVIRONMENTAL ENERGY TECHNOLOGY ASSESSMENT HYDROELECTRIC POWER PLANT (CASE STUDY OF WONOGIRI RESERVOIR)
Keywords:
hydroelectric power plants reservoirs, Wonogiri, process, development
Abstract
Hydroelectric power plants in Indonesia are widely developed. This is because the water supply in Indonesia is quite abundant. Several large reservoirs in Indonesia, in addition to being used for water reservoirs, are used to produce electricity. Wonogiri is a region that is located in Central Java province, where most of the region is arid land that cannot be planted in the dry season. In the rainy season the abundance of water plants to die and the soil is such that in the dry season crops do not grow well. Plans for the construction of Gajah Mungkur started in 1964, and it is designed to be a multipurpose dam project that aim to control floods, supply water for irrigation and hydropower in the Solo River valley. The master development plan was formulated in 1972-1974 with the help of Overseas Technical Cooperation of Japan. The results of this study include the completion of flooding problems along the Solo River, the increase in agricultural output in Winton community with irrigation facilities and good infrastructure, availability of electricity for communities around the dam and improving the local economy as the development of inland fisheries and tourism sectors.Downloads
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References
F. Kawamura, M. Miura, R. Ebara, K. Yanase. 2016. Material Strength oOf Long-t Term Used Penstock oOf a Hhydroelectric Power Plant. Instituate of Materials Science and Technology, Fukuoka University, Japan.
André L. L. Reda, Fernando de S. Viña, Raphael L. F. Alves, Renato G. C. Ribeiro. 2016. Santo Antônio Hydroelectric Power Plant Reservoir Life Time: An Independent Sediment Budget Estimate oOn tThe Madeira River, Brazil.
Mustafa Gogusa, A. Burcu Altan-Sakaryaa, Mete Kokena. 2016. Experimental Investigation of the Original Project of Yukari Kaleköy Dam and Hydroelectric Power Plant Spillway. Procedia Engineering 161 (2016) 313 – 317.
Temelsu, 2013. Upper Kaleköy Dam and Hydroelectric Power Plant, Hydraulic Calculations.
Setiawan D., 2013. Kajian Pengaruh Perubahan Iklim dan Tata Guna Lahan di Daerah Aliran Sungai (DAS) Citarum Hulu terhadap Pembangkit Listrik Tenaga Air Saguling Assessing the impact of climate change and landuse change in Upper Citarum Watershed to Saguling Hydropower]. Bogor Agricultural University.
Setiawan., 2014., Potential Sites Screening for Mini Hydro Power Plant Devenlopment in Kapuas Hulu, West Kalimantan : a GIS approach, Energy Procedia.
Rajeswari V, Rajeshwari Y and Padma Suresh L 2012 Real-Time Implementation of Hydroelectric Power Plant Using PLC and SCADA, Internastional Journal of Engineering Research and Applications 2(3) 899-902.
Gupta R, Singh S N and Singal S K. 2012. Automation of Small Hydropower Station, International Conference on Small Hydropower – hydro, Sri Lanka, October 22-24, pp 1-9.
Popa B and Paraschievescu. 2012. Introduece in utilizarea energie apelor, Editura Politehnica Press, Bucuresti, Romania.
Dinis C M and Popa G N. 2014. Measurements in SCADA System Used at a Wastewater Treatment Plant Annals of Faculty Engineering Hunedora –International Journal oOf Engineering 207-215.
Kaur S, Kathpal N and Munjal N. 2015. Role in Hydro Power Plant Automation, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering 805-809.
Temelsu, 2013. Upper Kaleköy Dam and Hydroelectric Power Plant, Hydraulic Calculations.
Knauss, J. 1987. Swirling Flow Problems at Intakes, A.A. Balkema, Rotterdam.
Altan-Sakarya, A.B., Köken, M., Yavuz, C., Dinçer, A.E., 2014. YukarÕ Kaleköy dam and hydroelectric power plant spillway hydraulic model studies. Final Report. Middle East Technical University, Ankara, Turkey.
Carvalho N. O.; Júnio N. P. F.; Santos P. M. C.; Lima J. E. F. W. “Guia de avaliação de assoreamento“. Brasília: Agência Nacional de Energia Elétrica. 2000, 107p. Available on:
Viña, F.S.; Alves, R.L.F.; Ribeiro, R.G.C. “Transporte de sedimentos em rios e seus impactos sobre reservatórios“. Dissertation (Civil Engineering), Engineering School, Mackenzie Presbyterian University, São Paulo. 2013, 110p.
Santoso Samosir Cahyo. 2012. Optimasi Pola Operasi Waduk Untuk Memenuhi Kebutuhan Energi Pembangkit Listrik Tenaga Air (Studi Kasus Waduk Wonogiri). Fakultas Teknik, Universitas Brawijaya, Malang, Jawa Timur, Indonesia.
Sri Utami. 2015. Pembangunan Waduk Gajah Mungkur Tahun 1976-1986. Fakultas Ilmu Sosial Universitas Negeri Surabaya.
Wiryanto., 2012. Model Pengelolaan Per Waduk Berdasarkan Tingkat Kesuburan Pencemaran Air.
Fauziah Eellys. 2012. Agriekonomika Jurnal Sosial Ekonomi Dan Kebijakan Pertanian. Program Studi Agribisnis Fakultas Pertanian Universitas Trunojoyo Madura.
Miroslav B., Michaela D Jan S., 2012. Determinatination of Unit Hydrograph Parametes For Indiana Watersheds, TRB Subject 23-6 Erosion and Water Pollution Control .
Elbashir S., 2011. Flood Routing in Natural Channels Using Muskingrum Methods Disserta submitted in partial fufillment of the requirements for the Dublin Institute of Technology’s Master of Engineering Computation. 2011
Sardoii E. R., Rostami N. 2012. Calibration of loss estimation methods in HEC-HMS for simulation of surface runoff (Case Study : Amirkabir Dam Watershed , Iran) Advances in Environmental Biology. 6(1) : 343-348.
Ostojic G., Stankovski., Maksimovic R., 2013. Development of hydro potential in Republic Srpska, RFenewable and Sustainable Energy Reviews Volume 28, December 2013, Pages 196- 203.
https://sdmuhammadiyah2solo.wordpress.com/2011/11/24/pembelajaran-pengenalan-lapangan-kelas-vi-pembangkit-listrik-tenaga-air-di-bendungan-wonigiri/
https://www.slideshare.net/adindagifary/fisika-terapan-prakarya-pembangkit-listrik-tenaga-air
http://hendripemudadesa.blogspot.co.id/2014/04/makalah-plta.html
http://misbahulilmi.blogspot.co.id/2015/10/makalah-pembangkit-listrik-tenaga-air.html
https://media.neliti.com/media/publications/29482-ID-kontribusi-usahatani-lahan-surutan-bendungan-serbaguna-wonogiri-terhadap-kesejah.pdf
http://infocom-hmjts-uty.blogspot.co.id/2011/09/analisis-waduk-gajah-mungkur.html
Anonim1. 2013. Pembangkit Listrik Tenaga Air. (http://teknik-listrik-unbari.blogspot.com/2013/02/pembangkit-listrik-tenaga-air.html, diakses 16 Mei 2013).
Anonim2. 2013. Pembangkit Listrik Tenaga Air. (http://www.anneahira.com/pembangkit-listrik-tenaga-air.htm, diakses 16 Mei 2013).
Anonim3. 2013. Cara Kerja Pembangkit Listrik Tenaga Air. (http://4bri.blogspot.com/2012/11/cara-kerja-pembangkit-listrik-tenaga.html, diakses 16 Mei 2013).
Anonim4. 2011. Pembangkit Listrik Tenaga Air PLTA altenatif Energi Masa DepanIndonesia.(http://indone5ia.wordpress.com/2011/05/13/pembangkit-listrik-tenaga-air-plta-alternatif-energi-masa-depan-indonesia/, diakses 16 Mei 2013)
André L. L. Reda, Fernando de S. Viña, Raphael L. F. Alves, Renato G. C. Ribeiro. 2016. Santo Antônio Hydroelectric Power Plant Reservoir Life Time: An Independent Sediment Budget Estimate oOn tThe Madeira River, Brazil.
Mustafa Gogusa, A. Burcu Altan-Sakaryaa, Mete Kokena. 2016. Experimental Investigation of the Original Project of Yukari Kaleköy Dam and Hydroelectric Power Plant Spillway. Procedia Engineering 161 (2016) 313 – 317.
Temelsu, 2013. Upper Kaleköy Dam and Hydroelectric Power Plant, Hydraulic Calculations.
Setiawan D., 2013. Kajian Pengaruh Perubahan Iklim dan Tata Guna Lahan di Daerah Aliran Sungai (DAS) Citarum Hulu terhadap Pembangkit Listrik Tenaga Air Saguling Assessing the impact of climate change and landuse change in Upper Citarum Watershed to Saguling Hydropower]. Bogor Agricultural University.
Setiawan., 2014., Potential Sites Screening for Mini Hydro Power Plant Devenlopment in Kapuas Hulu, West Kalimantan : a GIS approach, Energy Procedia.
Rajeswari V, Rajeshwari Y and Padma Suresh L 2012 Real-Time Implementation of Hydroelectric Power Plant Using PLC and SCADA, Internastional Journal of Engineering Research and Applications 2(3) 899-902.
Gupta R, Singh S N and Singal S K. 2012. Automation of Small Hydropower Station, International Conference on Small Hydropower – hydro, Sri Lanka, October 22-24, pp 1-9.
Popa B and Paraschievescu. 2012. Introduece in utilizarea energie apelor, Editura Politehnica Press, Bucuresti, Romania.
Dinis C M and Popa G N. 2014. Measurements in SCADA System Used at a Wastewater Treatment Plant Annals of Faculty Engineering Hunedora –International Journal oOf Engineering 207-215.
Kaur S, Kathpal N and Munjal N. 2015. Role in Hydro Power Plant Automation, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering 805-809.
Temelsu, 2013. Upper Kaleköy Dam and Hydroelectric Power Plant, Hydraulic Calculations.
Knauss, J. 1987. Swirling Flow Problems at Intakes, A.A. Balkema, Rotterdam.
Altan-Sakarya, A.B., Köken, M., Yavuz, C., Dinçer, A.E., 2014. YukarÕ Kaleköy dam and hydroelectric power plant spillway hydraulic model studies. Final Report. Middle East Technical University, Ankara, Turkey.
Carvalho N. O.; Júnio N. P. F.; Santos P. M. C.; Lima J. E. F. W. “Guia de avaliação de assoreamento“. Brasília: Agência Nacional de Energia Elétrica. 2000, 107p. Available on:
Viña, F.S.; Alves, R.L.F.; Ribeiro, R.G.C. “Transporte de sedimentos em rios e seus impactos sobre reservatórios“. Dissertation (Civil Engineering), Engineering School, Mackenzie Presbyterian University, São Paulo. 2013, 110p.
Santoso Samosir Cahyo. 2012. Optimasi Pola Operasi Waduk Untuk Memenuhi Kebutuhan Energi Pembangkit Listrik Tenaga Air (Studi Kasus Waduk Wonogiri). Fakultas Teknik, Universitas Brawijaya, Malang, Jawa Timur, Indonesia.
Sri Utami. 2015. Pembangunan Waduk Gajah Mungkur Tahun 1976-1986. Fakultas Ilmu Sosial Universitas Negeri Surabaya.
Wiryanto., 2012. Model Pengelolaan Per Waduk Berdasarkan Tingkat Kesuburan Pencemaran Air.
Fauziah Eellys. 2012. Agriekonomika Jurnal Sosial Ekonomi Dan Kebijakan Pertanian. Program Studi Agribisnis Fakultas Pertanian Universitas Trunojoyo Madura.
Miroslav B., Michaela D Jan S., 2012. Determinatination of Unit Hydrograph Parametes For Indiana Watersheds, TRB Subject 23-6 Erosion and Water Pollution Control .
Elbashir S., 2011. Flood Routing in Natural Channels Using Muskingrum Methods Disserta submitted in partial fufillment of the requirements for the Dublin Institute of Technology’s Master of Engineering Computation. 2011
Sardoii E. R., Rostami N. 2012. Calibration of loss estimation methods in HEC-HMS for simulation of surface runoff (Case Study : Amirkabir Dam Watershed , Iran) Advances in Environmental Biology. 6(1) : 343-348.
Ostojic G., Stankovski., Maksimovic R., 2013. Development of hydro potential in Republic Srpska, RFenewable and Sustainable Energy Reviews Volume 28, December 2013, Pages 196- 203.
https://sdmuhammadiyah2solo.wordpress.com/2011/11/24/pembelajaran-pengenalan-lapangan-kelas-vi-pembangkit-listrik-tenaga-air-di-bendungan-wonigiri/
https://www.slideshare.net/adindagifary/fisika-terapan-prakarya-pembangkit-listrik-tenaga-air
http://hendripemudadesa.blogspot.co.id/2014/04/makalah-plta.html
http://misbahulilmi.blogspot.co.id/2015/10/makalah-pembangkit-listrik-tenaga-air.html
https://media.neliti.com/media/publications/29482-ID-kontribusi-usahatani-lahan-surutan-bendungan-serbaguna-wonogiri-terhadap-kesejah.pdf
http://infocom-hmjts-uty.blogspot.co.id/2011/09/analisis-waduk-gajah-mungkur.html
Anonim1. 2013. Pembangkit Listrik Tenaga Air. (http://teknik-listrik-unbari.blogspot.com/2013/02/pembangkit-listrik-tenaga-air.html, diakses 16 Mei 2013).
Anonim2. 2013. Pembangkit Listrik Tenaga Air. (http://www.anneahira.com/pembangkit-listrik-tenaga-air.htm, diakses 16 Mei 2013).
Anonim3. 2013. Cara Kerja Pembangkit Listrik Tenaga Air. (http://4bri.blogspot.com/2012/11/cara-kerja-pembangkit-listrik-tenaga.html, diakses 16 Mei 2013).
Anonim4. 2011. Pembangkit Listrik Tenaga Air PLTA altenatif Energi Masa DepanIndonesia.(http://indone5ia.wordpress.com/2011/05/13/pembangkit-listrik-tenaga-air-plta-alternatif-energi-masa-depan-indonesia/, diakses 16 Mei 2013)
Published
2017-10-30
How to Cite
Hidayani, F., Sardjono, Y., Fandeli, C., & A.R, R. (2017). CREATIVE ENVIRONMENTAL ENERGY TECHNOLOGY ASSESSMENT HYDROELECTRIC POWER PLANT (CASE STUDY OF WONOGIRI RESERVOIR). Indonesian Journal of Physics and Nuclear Applications, 2(3), 101-110. https://doi.org/https://doi.org/10.24246/ijpna.v2i3.101-110
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Indonesian Journal of Physics and Nuclear Applications is licensed under a Creative Commons Attribution 4.0 International License.